SU1388838A1 - Pressure regulator - Google Patents

Abstract

The invention relates to automation, in particular to pressure regulators, and can be used to regulate the pressure of fluid in irrigation pipelines. The purpose of the invention is to improve the accuracy and reliability of the controller. The regulator, the pressure includes a housing 1, a diaphragm actuator 13 double acting, a pressure sensor 21 and regulating L - l: an organ mounted inside the housing coaxially with it and consisting of closed elastic tapes 5 tensioned on rolls 6 and installed with the ability to rotate along the surface of cylinder 7. The rolls are designed to roll the belts around the outer side surface of the nozzle. The rolls are moved by a system of brackets 10 and an axis 8 pivotally connected to the diaphragm actuator and the pressure sensor. When the setpoint is changed, the pressure sensor responds to the change, changing the ratio of costs discharged from the diaphragm actuator. As a result, a pressure difference arises between the chambers of the membrane drive and its membrane moves towards the chamber with less pressure. The membrane drives the bracket system 10. and the axis 8 and rolls the tape 5. As a result, the cross section of the perforation 9 and the flow through it change, and the pressure setpoint is restored. 4 il. from (L from 00 oo 00 from 00 -I

Description

113

The invention relates to automation, in particular to pressure regulators, and can be used to regulate the pressure of fluid in irrigation pipelines.

The purpose of the invention is to improve the accuracy and reliability of the controller.

1 shows a schematic of a regulator; figure 2 - section aa in Fig, 1, the mechanism of the membrane actuator; FIG. 3 is a sectional view in FIG. 1, pressure sensor I in FIG. 4, the flow pattern of the regulator,

9 into the cavity and passes into the output at the same time through the piston rod 17 liquid of measure 14 and 15, through t into the sensor housing 22 and 23 into the cavity of the cylinder, the capacity of the tube 23 exceeds the labor costs of which, during pressure work 22 sensor housing between each other. When asked

The pressure regulator comprises a pressure body in cavity 7

thirty

35

IC with inlet and outlet nozzles 2 and 3, regulator 4d located coaxially with the bodies and made in the form of closed elastic bands

5, mounted on rolls 6 and mounted with the possibility of rolling over the surface of the cylinder 7j plugged with one end wall 8 and having i along the side surface in axially symmetric sectors of the perforation 9, int. 25; 7 is connected to one pipe, and externally to another pipe. The tapes 5 have the ability to rotate with the help of rollers 6 on the surface of the cylinder 7, B; 1, 6 with the help of brackets 10 are rigidly connected to the axis 11, having the pin 12, designed to convert the translational movement of the diaphragm actuator 13 into the rotational movement of the axis

I1о Membrane actuator consists of a closing 14 and opening 15 chambers, separated by a membrane 16 with which

 tube-rod 17, which has two functions, is rigidly connected; transferring the motor from the membrane 16 to the clamp 12, with which it is connected pivotally, and communicating the controller case with the closing chamber 14; The nozzle 18 connects the controller case with the opening camera 15. The actuator chambers 14 and 15 are connected by tubes 19 and 20 with a pressure sensor 21, consisting of a housing 22 connected by a tube 23 from a hollow) cylinder 7, valves 24, installed 1 inside the housing 22 between the 50 output slits trz side 19 and 20, the membrane 25 pivotally connected to the lever 26, I ask; she springs 27 with an adjusting screw 28 "

Regulator works as follows 55

.razom.

From the input fluid enters the housing 1 and then through the first 40

45

transmitted through the pressure sensor tube. At 25, the spring 2 is depressed on valve 26, at which the flow rate and 20 are equal to each other, the flow rate arrives 15, the pressure in the chamber also is equal, and the diaphragm 16 does not match the pressure of the linder 7 from the specified pressure on the pressure membrane. In connection with the membrane 25, the lever 2, the springs 27 are changed until the news is restored. As a result of the lever 26, the flow rates of the tubes | 9 and races 14 and 15 occur. Under the influence of the difference-caught bran, 16 moves in with less pressure. The lever 12 connected to the membrane rotates the axis of the axis 11 with brackets 1 by rolls 6, which are rolled on them by the roll surface 5 on the tangent to the circumference of lindra 7, and the pressure radius of the same ambient force does not affect each other regulator constant value, the accuracy of adjusting the size of the drive. When regulating the org to the outer lateral.

2

9 into the cavity of the cylinder 7, from where it passes into the outlet nozzle o Simultaneously through the nozzle 18 and the tube-rod 17, the liquid enters the chambers 14 and 15, through the tubes 19 and 20 - into the sensor housing 22 and further along the tube 23 into the cavity of the cylinder 7. The capacity of the tube 23 significantly exceeds the costs of the tubes 19 and 20, and therefore, when the device operates, the pressures in the outlet nozzle 3 and in the sensor housing 22 are approximately equal to each other. For a given value

cavity pressure 7

its magnitude

0

five

d 5

0

five

0

five

It is transmitted through tube 23 to pressure sensor housing 22. In this case, the membrane 25 presses the spring 27 and sets the clamp 26 with the valves 24 to a position in which the flow rates of the tubes 19 and 20 are equal. Since the costs entering the chambers 14 and 15 are also equal, the pressure difference in the chambers is zero and the membrane 16 is fixed. When the pressure in the cavity of the cylinder 7 deviates from the predetermined value, the balance of forces on the membrane 25 of the pressure sensor is disturbed. In this connection, the position of the membrane 25, the lever 26 and the degree of compression of the spring 27 change until the imbalance is restored. As a result of changing the position of the lever 26, the ratio of the flow rates of the tubes | 9 and 20 and between the chamber - changes. 14 and 15, a pressure difference occurs. Under the effect of the pressure difference, the membrane 16 moves in the direction of the chamber with less pressure. The tube-stem 17 connected to the membrane 16 rotates the axis 11 by means of the lever 12, the rotation of the axis 11 by the brackets 10 is transmitted by the rollers 6, which roll the belts 5 tightened on them along the outer side surface of the cylinder 7, since the force on the rolling moves tangentially to the circumference of the cross section of the cylinder 7, and the pressure of the fluid — over the radius of the same circumference — these forces do not affect each other. As a result, efforts to move the regulator have a small and constant value, which increases the control accuracy and reduces the size of the drive. With this design of the regulatory body, the clamping of the tapes to the outer side. The pressure generated by both the tension and the pressure of the fluid ensures high tightness. During rolling, the tapes 5 change the degree of opening of the perforations 9, as a result of which the flow rate through the holes changes, which leads to the restoration of a predetermined pressure value behind the regulator.

Increasing the accuracy of regulation and improving the tightness increases the water utilization rate of the irrigation system, reduces the strength requirements of pipeline materials and irrigation network designs, greatly facilitates operation and increases service life. Eliminating the effect of fluid pressure on the regulatory control effort and reducing this force reduces the size of the drive and the cost of the device as a whole.

about

rmula of invention

A pressure regulator, comprising a housing, between the inlet and outlet nozzles of which a cylinder is perforated along the side surface, plugged at one end and connected by an internal cavity with one of the nozzles, a diaphragm actuator connected to the pressure sensor, a regulating member, characterized in that In order to improve the accuracy and reliability of the regulator, the regulator is made in the form of closed elastic bands, kinematically connected with a membrane drive and installed with the possibility of rolling over the surface of a cylinder perforated in axisymmetric sectors.

ten

/ 2

/four

cpue.Z

P 24 jfO

cfyt.3

ffiue.lt

Claims (1)

Claim A pressure regulator comprising a housing between which an inlet and outlet nozzles have a cylinder perforated on the lateral surface, sealed from one end and connected by an internal cavity to one of the nozzles, a membrane actuator connected to a pressure sensor, a regulating body, characterized in that, for the purpose of to increase the accuracy and reliability of the regulator, the regulatory body is made in the form of closed elastic bands kinematically connected with a membrane drive and installed with the possibility of rolling over an external drive rhnosti cylinder perforated in axisymmetric sectors. B-in FIG. 3 FIG.